Some of those people are setting up their schools and educational facilities to train the oncoming generation. These academics are building the most impressive makerspaces you can imagine.
Some are building from the ground up, after lining up the resources to do so, while others are retrofitting classrooms, basements, and any spot they can find to create these innovation zones.
We would love to recognize some of these schools and the people behind them. 如果你的学校——或者你的老师——已经为你创造了一个可以学习和探索的黑客空间, 为了磨练你的技能和发展新的技能，请让365体育网官网知道!
Of course we find the 3D print labs to be fascinating, but a good makerspace will often also include a woodshop, a metal shop, an electronics lab. 你也会发现一些灵活的空间——365体育网官网已经听说过有安静的研究区域的创作者房间的好评, for planning, 用来思考，然后是用来分享想法的协作区, 对于散列在白板上的计划, for critical thinking.
学校设计的另一个关键特点是无障碍. Universities want their makerspace to be loved and used. While some may reasonably have limits or fees, others are open to any student, staff or faculty member – without even charging for materials used such as the 3D printer filament.
学生们通常也会参与创客空间的运营. Training is provided to use the tools and equipment safely, 还有那些想要接受培训成为培训师的学生.
And that’s what we love seeing! Consider the possibilities for a few minutes. Teams of students, working together, 在各种各样的项目中——使用工具, equipment, 还有导师可以帮助他们实现目标. Experience gained they’ll be able to use far into their post-graduate life.
So again – give a shout-out to your school or teacher! Tell us about your experience. What did you build? What did you love about the makerspace? What would you improve if you could? Use the form below to submit your nomination!
Since adolescence, Anton was always curious about electronics and mechanics. In fifth grade, Anton began playing with hardware, 把东西焊接在一起，试着弄清楚它们是如何工作的. He used to make up theories for how a bulb or a microwave works and operates — by just pressing a button, something happens.
He didn’t play video games, viewing them as trivial. Instead, he used to write small programs on the computer. 那时电脑还没有硬盘，安东经常整夜在电脑上工作，直到太阳升起. 有一天，他整夜没睡，用BASIC语言编写一个新程序. In the morning, he slept for a while, woke up at 12, and saw that the computer froze, and it did not have storage. All his 550 lines of code were missing.
In tenth grade, Anton TOP 10 ranked for programming competitions in the city and in the country. In eleventh grade, he was among the top ten in the nation, as well as the first and runner up in his city and town. 安东没有在学校学习编程，他是自学的. 安东在健身房取得了如此高的成绩，他成为了爱沙尼亚总统的荣誉榜的一员.
In twelfth grade, he competed in the TalTech programming competition and won the second prize, 帮助他获得了去爱沙尼亚TalTech大学的门票. During his time at TalTech, Anton founded his first software development company at age 21. His first client was a government agency, and he also worked for various European Commission projects.
When the global recession hit in 2008, people were losing jobs, many IT projects were closed and companies were laying off people as well. In this difficult time, Anton began working as a consultant in the banking and insurance sector. 他把当顾问赚来的钱付给他的软件工程师，因为他不想爱沙尼亚失去IT业的发展势头, and they continued to build government projects, even though the government couldn’t pay.
In early 2009, Anton started working on a lab process automation product for skin samples. Starting from scratch, he got the best people in the city, ordered a bunch of hardware and electronics for experiments, and assembled his first 3D printer—a Prusa Mendel version. It took several months to create the first prototype for a fully automated mobile laboratory medical processing unit used in the fields for the rapid diagnosis of skin diseases and pathologies using skin samples and biomarkers as inputs.
As Anton and his team did not have much experience in hardware and firmware development, 他们把所有的业务逻辑和重要的IP都转移到了云端, the hardware robot was basically a player of commands coming from the cloud, also sending back the telemetry data, 因此，云可以做出决定，并向机器人发送下一个命令. Thus, they basically sent g-codes from the cloud to this machine, which was comparable to moving all of the different stuff and giving back the photos, results, and computer processing. It might be similar to the 3D printers we use nowadays.
Anton and his team created protocols for such communication: cloud-to-hardware-to-cloud. Initially, it was a $50,000 project, but it quickly grew to nearly a $500,医疗机器人需要FDA批准. They created three prototypes and the last was a pre-production prototype. 他们制造的医疗设备与3D打印机非常相似, but with syringes, tubes, cameras, reagents, various fluids, chemical solutions, and more. At the time, Anton couldn’t comprehend why every piece of medical equipment had so many buttons. However, the medical gadget they created had just one button, which was to turn it on. Additionally, 人们可以使用附近的任何笔记本电脑或电脑来操作它，并查看一切，因为软件是托管在云上的. One of the objectives of that customer at the time was to retain as little business logic as possible within this machine because they were afraid that someone would buy it, place it in laboratories as a sample, and examine the software, firmware, and internal operations. This valuable experience was used by Anton at 365体育网官网, where Anton and Dogru connected. As of now, 365体育网官网 platform has more than 55,000 3D printers by more than 175,000 users around the globe.
Today, Anton holds a Ph.D. in cloud computing and cyber security, and is the author of numerous cybersecurity and digital manufacturing scientific papers (e.g., IEEE, ACM, Springer) and patents. He also teaches Cloud Computing and Data Security at TalTech and has developed multiple security and e-government solutions for the Estonian government and EU Commission.
Anton knows very well how to process sensitive data on every level of networking and computing. Anton’s stack includes C, C++, GoLang, Python, Java, Haskel, Rust, PHP, Cassandra, Hadoop, Spark, Aerospike, Redis, Postgres, Radoop, H2O, Deep Learning, AI, ML, BitKey, Kali Linux, IronKey, Ethereum, Solana, Polkadot, Cosmos, Cardana, Corda R3, Hyperledger, AWS, Azure, GCE, and GovCloud.
Anton realized that although he knew a lot about technology and business, he still needed someone with great sales abilities, negotiating skills, 以及主持任何会议并说服他人的能力.
When Dogru moved to Estonia, he met Vedeshin, and the two began investigating 3D printing technology. The first 3D printer they bought was the MakerBot. Following their purchase, they realized that these 3D printers were exactly where PCs were 40 years ago, where they had started. 他们在爱沙尼亚建立了一个实验室，花了很多时间研发后来成为3D控制系统的产品.
Following this, they met Aaron in the United States and incorporated it first in the United States, and then the Alchemist Accelerator. They then traveled to Silicon Valley to pitch the new product that he was developing with John. 
Following that, they attended Alchemist Accelerator. They received the funding in the summer of 2014, and it was critical that they quickly form a team. They employed a total of 24 and 25 engineers. Prior to meeting with MakerBot, they provided them with information about desktop 3D printing.
结合Dogru在计算机行业的经验, automated manufacturing, how to launch items inside corporations, how the sales cycle works, and how sales automation works, Dogru和Vedeshin开始组装3D控制系统. Since then, they’ve been doing 3D printing integrations to the cloud and making it easy for over eight years, long before the advent of APIs.
They’ve been doing it for over eight years, and they saw the vision a long time ago that if one can go from design to production with a single click, 这就是未来.
Eight years ago, most additive manufacturing users did not have as many top-of-the-line machines as industrial machines. So, they started with the early adopters, such as Facebook, Google, Apple, and Microsoft. They started in universities, and the university area grew the quickest since universities are early adopters and can validate concepts.
As a pilot, they started with Duke University. The college only had ten printers and ten students, but John and Anton showed that there is another way to get things done. 而不是让某人将设计从他们的计算机发送给管理员，再发送给操作机器的人, 他们打算创建一个系统，通过这个系统，他们的客户可以完全远程和自主地操作机器. As a result, the self-ruling stage became an important factor, and today Duke has the world’s largest real-time 3D printing deployment in a university, with more than 200 printers and 7000 students.
After these successes at Duke, they extended to MIT, Harvard, and Yale, 这些机构的学生很快就认识到，3D控制系统(3D Control Systems)可能会成为数字化制造领域的下一个微软(Microsoft).
Indeed, Dogru和Vedeshin已经证明，他们已经使3D控制系统成为网络增材制造最简单的365体育网官网. The company has the world’s most prominent desktop 3D printing management platform, which is widely used by universities and businesses too, including Google and John Deere, organizations that use lots of desktop printing for design and prototyping.
Now, they’re taking what they’ve learned in other markets, and are applying it to advanced manufacturing. In the advanced manufacturing world, 3D printing only makes up less than 5% of production, 但3D控制系统公司正在研究一种新的365体育网官网，可以将工业添加剂从发明到生产整合在一起, with a hardware and software-agnostic platform.
The difference between the impossible and the possible is defined by an individual’s level of certainty. This is how Anton and John structured their company, with the help of their committed employees and their day and night hard work. For Anton and John, there are no secrets to success. 它是筹备，苦干以及在失败中汲取教训的结果. Successful people are not gifted, they just work hard and succeed on purpose.
“Tough times never last, but tough people do.”
In previous sections of this multi-part article on the founding of 3D Control Systems, we examined the startup years of the company, and the passion that drives 3D Control Systems Co-founders Dogru和Vedeshin to succeed. In this final chapter, we’ll dive deeper into the origins of these entrepreneurs.
John Dogru started as a hacker in a boarding school before receiving a full scholarship to study electrical design and software engineering at the College of Texas, Austin, which ranks among the best in the United States. During the dot-com boom, Dogru joined a startup called Austin Digital, which made aircraft data record retrieval systems. 这些自动飞机数据记录检索系统使航空公司能够尽快从飞机上获取信息, reducing the latency from six months down to minutes. They helped the airlines adjust service intervals based on how hard the plane was flown; thus, accessing all flight data after every flight was critical. The platform worked with all major airlines, including FedEx, Lufthansa, Swiss Air, and others. At Austin Digital, Dogru received his first taste of what it is like to program and build products and take them to market. That startup was later acquired by General Electric.
While still in school, 约翰开始为戴尔电脑公司工作，作为自动化制造的首席工程师，并开发了自动化主板测试系统. 主板曾经通过集成电路测试(ICT)进行测试, and the cost to test every motherboard with this technology required approximately $1 million per test station. Dogru开发了一个自动化的软件测试平台，能够以低得多的成本检索故障分析数据. At Dell, his platform became the gold standard of how computers were tested.
During his time at Dell, Dogru learned about just-in-time manufacturing. At the time, Michael Dell, the Chairman and CEO of Dell Computer, was just realizing the power of just-in-time or “zero-time” manufacturing, having learned about it from his mentor, George Kozmetsky. At the time, Dell stated, “Zero Time为数字化时代的关键成功因素提供了有价值的见解:全面的客户体验, velocity, 以及运营效率——这些都是戴尔直接模式的组成部分.”
“Technology continues to shrink the world. 除了参与国际社会，365体育网官网别无选择. Science and technology is too precious a resource to be restricted from drawing the world together. That is what the 21st Century is all about.” — George Kozmetsky
Dr. Kozmesky and Dell’s adoption of zero-time automation inspired Dogru to build products that served the customer at the point of need and time of need, with zero latency.
In his time at university, Dogru managed to gain valuable professional experience. 他从一家为飞机提供准时数据的初创企业，变成了一家生产准时计算机的企业. At the time, Dell was the most advanced manufacturing company in the world. If someone requested a PC through Dell.com, the inventory of parts needed would only be purchased at the time of need. Thus, supplier trucks would be sitting outside of Dell’s manufacturing plants, depreciating by the day, by the minute, by the second, 戴尔只会在订单完成、卡车进入制造工厂的时候支付硬盘的价格. The sales system was connected to the manufacturing plant, and in real time the assembly line would start to produce the computers for that specific order. 计算机行业的创新如此之快，以至于制造一台计算机并把它放在货架上，几个月之内就会让它过时. For that reason, it didn’t make sense to build a computer and mount it on a rack because hard drives were $200 one day, $190 the next, and then $100 not long after. With zero-time manufacturing, Dell was revolutionary.
There is an inflection point right before a technology experiences mass adoption. With 3D printing, the knowledge is here, the technology is here, and the tools are here, but the implementation to combine all of these disparate systems has been lagging. This is the opportunity that the 3D Control Systems team is focused on: to unlock the power of digital additive manufacturing for billions of people.
Following his time at Dell, and later as the lead engineer pioneering motherboard testing automation, Dogru worked as an internal auditor for the CFO to gain an understanding of corporate controls, IT security systems, disaster recovery, and financial systems, and helped work on large pre-project implementations such as the world’s largest NCR 44 node implementation.
Still, Dogru always wanted to launch his own company. Thus, 他开始学习创业公司是如何建立的，并研究大型制造企业是如何根据需求生产零部件的.
At the time, the industry was constantly looking for new technologies and competitors, and Microsoft was manufacturing the Xbox. Dogru spent a long period working with Dell’s top executives and learning how an organization operates, including business controls, security, innovation, mitigating risk, and intellectual property control. In two years, he began leading a project called Symphony, 戴尔最新的面向内部和外部的销售工具. 这包括领导戴尔的销售点技术团队, which is responsible for processing all orders from Dell.com and by phone. As the lead program manager, Dogru was in charge of 85 software developers and more than 120 project owners.
在戴尔工作之后，多格鲁创办了自己的初创公司NuScribe. 在Siri出现之前，NuScribe是一家医疗语音识别公司. On average, 25名医生每年要花50万美元对着录音机说话，然后让人转录. Voice recognition on the Pentium 2 running on Windows was still quite slow. He sold that company for $9 million.
Thereafter, Dogru moved to Estonia, where he worked on numerous projects in online marketing and many intriguing technologies. 他处于半退休状态，但总是在寻找下一件大事.
To be continued…
This article is part of a series on how 3D Control Systems was founded. To read part 1, please click here.
In the previous part of this story, we highlighted our founders’ passion and commitment to bootstrapping the company, starting with agile universities rather than slow-moving enterprise clients. One reason for the company’s success, apart from the hard work and strategy, is that Dogru和Vedeshin both have excellent software and electrical engineering backgrounds. They have a unique point of view, and a combined total of 70 years experience in building software and hardware.
365体育网官网的两位创始人都来自早期的个人电脑黑客世界, manufacturing PC’s at scale, building and selling companies. Prior to creating 3D Control Systems, John Dogru built and sold 2 tech companies. In the fast-moving 3D printing market where 3D Control Systems operates, many of our competitors’ founders are coming from the worlds of venture capital, sales, chemical engineering, mechanical engineering. For founders actually involved in the work of the company, it takes real computer and software know-how to connect disparate software and hardware systems, 特别是在行业碎片化持续增长的情况下. This core foundation of knowledge has been beneficial for Dogru和Vedeshin to crack the ‘missing link’ in 3D printing and develop 3D Control Systems. Historically and statistically, technical founders have created some of the most successful tech unicorn companies in the world, 因为他们有能力自己解决复杂的技术问题.
Dogru和Vedeshin have been using computers since they were 4 and 10 years old, respectively. They have a wealth of knowledge in programming and designing technology platforms. 他们参与了硬件和软件的发展，这已经嵌入了公司的核心DNA.
John started off on computers before the age of 4. 他的父母在德克萨斯大学奥斯汀分校(University of Texas Austin)完成石油工程博士学位时，他在校园长大. His cousin had his PhD in Electrical Engineering, 在接他上学后，他经常会去Radioshack购买制造机器人和小配件的零部件, and helped him build his first CPM computer.
This was the period of the PC industry when each PC was sold with a different set of software. As a result, hardware manufacturers realized that they needed software to sell their hardware. That’s when companies like Microsoft came around and revolutionized the PC industry and information age.
今天，同样的大趋势正在数字化制造业中发生. 3D printing manufacturers are building software to sell their 3D printers and are slowly realizing that by selling closed hardware/software systems, 这极大地降低了他们扩展和销售更多硬件的能力. Over 80% of the market is running on closed hardware, 许多3D打印机oem正试图迫使他们的客户只使用他们的产品和服务，并致力于品牌生态系统. Because this approach closes doors for the customer and limits their ability to fulfill their needs, the closed ecosystem approach may actually be hurting 3D printer OEMs.
这就是Materialise和NetFabb等公司诞生的原因:解决客户在一家工厂管理不同3D打印机的问题. 这些公司为此开发了领先的软件, but they still try to lock their customers into their entire software stack. It’s a trend seen across manufacturing, even with massive industry players like Siemens. 这种强迫客户只使用你的整个软件堆栈的愿望限制了3D打印实现大规模采用的能力.
Imagine if Apple only let your Macbook use Apple-developed applications? Where would personal computers be today?
Probably something like this:
不幸的是，今天大多数3D打印都是这样的. Not only does every 3D printer manufacturer still build their own proprietary software, 通过收购和开发与竞争对手相同的硬件技术，它们也开始变得越来越相似. 这让你想起了40年前的计算机行业?
Just imagine the Dell.com of the 3D printer market.
Instead of reinventing the wheel, 一家新的3D打印机供应商可以简单地从中国购买库存硬件, put a sticker on it, and with a $100 license of 365体育网官网, go to market. Why spend the money to reinvent hardware and an OS everytime you want to sell a computer? Michael Dell simply put a sticker on a computer, purchased a license of windows, and sold it online. Seems like he did pretty okay, right?
The extremely high barrier to entry for a 3D Printing OEM is part of the reason why the market has not exploded. Stop spending money recreating the wheel. “The best artist copy ”, said Steve Jobs. To create something truly valuable in the 3D printer space, vendors need to focus on making it easy for the user to get value from their 3D printer experience. Reinvented, expensive hardware and a closed software stack don’t accomplish that. So what does?
Story about two individuals who are behind the achievement of 3D Control Systems are Mr. John Dogru and Mr. PhD. Anton Vedeshin
Eight years ago, John Dogru and Anton Vedeshin, PhD., founded 3D Control Systems. This is their story.
“All dreams can come true if someone has the courage and confidence to achieve them. Starting a business is always difficult. Specifically, a startup building something 8 years ahead of the market.” John Dogru
Eight years ago, most people thought we were crazy to build an OS for 3D Printing.
The usual reply was,
“Why do you need to network 3D printers?”
Even just 3 years ago, top 3D printer OEMs told us,
“Why would anyone need to network farms of 3D printers?”
“We will build our own software.”
“We will wait for standards to appear.”
When we asked them, “Can you imagine a customer trying to manage 10 different 3D printer brands, with 10 different software tools, and trying to scale?”
Usually, they went blank. Then the answer was: “We will become the ‘Apple’ of 3D Printing.”
In 2020, everything changed. 3D Printer Management became a real problem and pain point! In a post-COVID world, how do manufacturing enterprises do more with less people?
“For 8 years, we had been fighting for our customers to scale 3D printing by hacking the machines, attaching network capabilities, and making them work the way we knew they should.”
原始设备制造商开始开放api，并收购软件公司，以确保他们的打印机能够更容易使用, access, and manage on networks.
It all started with the top 50 universities in the world like MIT, Harvard, and Rice. Duke was one of the first pilot customers of the fledgling startup, 365体育网官网. Today, Duke has the world’s largest real-time university-based 3D printing network in the world, with over 7,000 students 3D printing on over 200 printers in real time, any time of the day, from anywhere. Another customer, Google, has over 30 locations worldwide running 365体育网官网. Even in a post-COVID world, anyone can print safely through the web browser, from the comfort of their home, any time of day, making their ideas a reality with one click.
As the company grew, a few lessons became clear. 当你追求自己的激情时，要全身心投入. When you can clearly see the future, it doesn’t matter how slowly the market moves, as long as you don’t stop and you focus on staying ahead by helping customers faster than anyone else. The secret of getting ahead is to execute relentlessly, no matter what challenges arise.
这是两位有奉献精神的人的历史和背景, and continue to carry, a vision to make it easy for the entire world to manufacture with one click. These are “the doers and masterminds” of producing one of the most productive, forward thinking and innovative companies in the industry.
3D Control Systems is built entirely on hard work and the lessons learned in those founding years. The team’s technical skills have proven they can make the impossible possible, by working days, nights, weekends, and holidays to help their customers make 3d printing easy and scalable. They were connecting 3D printers online before printers even had onboard network capabilities.
The two individuals who are behind the achievement of 3D Control Systems are John Dogru and Anton Vedeshin, PhD. They started from nothing, bootstrapped the company, 现在领导一个全球性的存在，继续树立榜样, breaking the barriers to democratize 3D printing. 在学术机构中发扬最优秀、最聪明的早期采用者的力量和势头，使他们得以建立, measure, refine, 并且，与那些停滞在老方法中的缓慢移动的企业客户相比，迭代产品的速度更快.
365体育网官网将在未来几周出版更多的3D控制系统历史和创始人的鼓舞人心的故事. Stay tuned for more.
Sept 23rd, 12PM EDT
Chris Hansen is the Digital Fabrication Technical Specialist at Harvard Graduate School of Design.
Christopher Hansen还将在他最新的研究论文中展示他的最新发现:比较分析- 3D打印机与激光切割机. He will be examining the financial costs and usage patterns of 3d printing and laser cutting equipment at Harvard Graduate School of Design (GSD)over six academic years to help serve as a guide to other makerspaces in their allocation of resources and decision making.
He has an interest in fabrication and making things, in both the physical and digital worlds. His background is in design and architecture. 他早期创造东西的经验是在银匠方面. Since then, 他扩展了自己的技能集，以操作和管理物理工具和资源，并在学术机构拥有超过十年的经验. Enabling users, faculty, students, researchers the ability to create physical objects of their research and explorations. He believes that the future of education and commercial industry is a merging of both the physical and digital worlds to create extended reality methods of representation and interaction.
Jason M. Frasca is the Entrepreneurship Instructor and Startup Mentor at Montclair State University.
Jason has dedicated his career to designing radically innovative technology solutions and processes for his companies, employers and clients. 通过解析复杂的问题，Jason提供了执行优化业务性能的系统设计方法. This optimization mindset has yielded massive results with limited resources. He is an entrepreneurial business executive, marketing, 拥有20多年管理世界500强企业和全国认可的直销客户的经验, non-profit, entrepreneurs, startups, private investigations, insurance, and international law firms.
Rene-Oscar Ariko is the VP of Global Sales at 365体育网官网 (3D Control Systems)
Oscar已经为加州大学伯克利分校等一流大学的数万名学生部署了数千台打印机, Duke, MIT, Columbia, Yale University and many other ones. 他在公司工作7年多，率先将3ddprinteros打造为领先的3D打印管理SaaS平台.
Making things together. It’s what humankind has done best since the very beginning. 在3D控制系统，这是365体育网官网比以往任何时候都更兴奋的东西. That’s why we’re announcing our new brand and logo, unifying 365体育网官网,Secured 3D,and ZAP under the 3D Control Systems structure.
The way we make things together is changing. Today, manufacturing is enabled by next-generation technologies and controlled by connection and automation. The power to control, analyze and improve manufacturing processes is in our hands more than ever before. With our portfolio of brands focused on automated workflows for additive manufacturing, advanced CNC and industry 4.0, 3D Control Systems aspires to make manufacturing accessible to anyone, anywhere, at any time. The simple vision of making it easy for our customers to innovate and manufacture parts.
When the time came to create our new brand and logo, 365体育网官网最希望的是将人类卓越和智慧的历史与365体育网官网今天可以做的令人兴奋的事情联系起来. Our new logo brings together the wheel, humankind’s fundamental invention, with the gear, 呼唤工业的力量来建造工作的东西. Lastly, our logo is built around the 3-dimensional cube, which signifies our commitment to engineering excellence in today’s world of advanced manufacturing, including industrial additive manufacturing, robotics, and CNC. 您将首次看到365体育网官网的新品牌RAPID + TCT(9月9日). 13-15) at McCormick Place, Chicago, IL. The transition to our new branding across our portfolio will be a gradual process.
We believe that making things together is humankind’s greatest challenge and purpose. 365体育网官网的新品牌将当今先进制造的力量与人类创新和工程的历史相结合. We’re excited to meet your digital workflow needs and get to work making things together with you.
3D控制系统公司是3ddprinteros的母公司, 他们的操作系统平台引入了“一键式”制造，革新了桌面3D打印行业. 3D Control Systems has now launched ZAP, an automated, workflow platform purpose-built for advanced manufacturing, helping customers drive efficiencies and simplification.
To learn more visit www.3dcontrolsystems.com.
3D打印正变得越来越容易为公众所接受, and its use will be further facilitated as OctoPrint and 365体育网官网 have announced that they will be partnering up.
Customers now can easily log into 365体育网官网.com and the Octoprint Plug is easy to install and connect your 3D printer online, for remote control and easier access.
This is exciting news as more homes and companies are using 3D printers for different purposes, and this integration brings with it the expectation of a more streamlined use.
3D打印机使用计算机辅助设计(CAD)技术，用不同的材料(如粉末或塑料)制造出三维物体. These printers are very flexible and can print a variety of different things. The printing works in layers where they are piled up on top of each other, bottom to top, until the finished object is complete.
OctoPrint is a Web interface for printers. 此应用程序用于远程控制您的3D打印机.
This open-source solution first launched in 2012, with the more stable version that came out early this year. It is a globally popular product available for Windows, Linux, and macOS, and it is all being developed by a lone German software engineer – Gina Häußge.
365体育网官网 is an operating system for 3D printers, and it offers complete software packages such as Firmware, Cloud Platforms, etc. It covers all the aspects of 3D printing, as well as advanced manufacturing workflows.
A 3D printer can be used in many different industries for multiple purposes. Some of which are:
3D printing is used in a few particular fields of medicine – namely bioprinting and prosthetics.
Bioprinting is where cells and growth factors are joined together to make structures similar to tissue where they can mimic their natural counterparts.
Prosthetics made via 3D printing are modifiable to a patient’s particular measurements and requirements, which are a cheaper alternative to normal prosthetics.
These are especially useful in children, as their size is constantly changing, so it would be expensive to purchase new prosthetics as soon as the old one is outgrown, 但对于3D打印假肢来说，这不是一个问题，因为这些假肢一年可以更换多次，成本更低.
3D打印允许学生轻松地创建廉价的原型，而不需要先进和重型工具. It gives the students a way to turn ideas from a page to a physical item that they can see and hold, and it brings their creativity to life.
3D printed objects can get completed within a few hours, depending on the particular size, design, and complexity. This is still considered faster than traditional methods, which could easily take more hours, or even days to complete.
The designing process of the objects can also be quicker as creating CAD or STL files is relatively quick, and when these files are created, they are ready to be printed.
3D printing enables the construction industry to fabricate buildings and components inexpensively. The construction rate can be faster, the labor costs are significantly lower, the level of waste produced is also lower, and the construction is more accurate and complex.
Jewellery makers can experiment with different designs and try out more innovative and creative styles that would be difficult and waste resources in the normal jewellery-making methods. The jewellery can also be customized to the customers’ preferences and uniquely catered to their demands at cheaper costs when using certain 3D printing materials.
By 365体育网官网 teaming up with OctoPrint to become its corporate sponsor, it will open up a new avenue for the future of 3D printing. 这一前景光明的整合将有利于3D打印市场，并进一步规范其个人和商业使用.
You need to have a great level of experience and expertise, as well as a hefty chunk of change – easily in the millions. The programmer-level skill required is not easy to come by. This is where many companies seem to lack such resources, 因为需要内部编程团队来全面集成OctoPrint.
Due to the companies falling short on these requirements, integrations have not been as successful in the past.
365体育网官网 brings with it its new 3D Printer Software Development Kit, 他们的目标是为拥有机器的公司提供365体育网官网. This is not only catered to those working up to a new installation type. It also works for something new being offered to the market.
Whatever the case may be, 365体育网官网 wants to facilitate these companies and help them get their products or services to the market.
When working with high-end customers such as FFF 3D printer manufacturers, users, makers, etc., 365体育网官网 tries to find the best and easiest solutions for 3D printing integration. They offer this as a software service, where you get everything in a single place instead of needing to hire an entire team.
The 365体育网官网 SDK comes in two versions – free and paid. The free version is packed with features, but the paid version is for the premium consumers that desire access to more advanced features.
Due to our financial sponsorship of OctoPrint, 3D printers sold with our license are a way to bring financial support to a community.
We are 365体育网官网’s parent company, 因其操作系统平台带来的“一键式”制造而被誉为计算机3D打印市场的先驱.
3D Control Systems brings you an automated workflow platform meant for advanced manufacturing to increase efficiency and provide more simple solutions.
Check us out now at:
Welcome back to Bockman’s Bites … now, on to the last one…
The bedrock principle of Lean Six Sigma is to reduce waste by evaluating DOWNTIME or Defects, Overproduction, Waiting, Non-Utilized Talent, Transportation, Inventory, Motion, and Extra Processing. 如果你熟悉增材制造，那么你就会知道，这些相同的原则可以被应用得比365体育网官网愿意承认的更多. 然而，有一些365体育网官网将导致流程改进.
It’s important to remember the DMAIC model in Six Sigma and that’s where I start when approaching a customer who already has components of a workflow. Understanding the outcomes expected, but first baselining and process mapping the entire workflow looking for those gaps is first and foremost.
The next generation of industrialization is committed to an agile manufacturing approach. Defined by the ability to quickly respond to customer production needs, agile manufacturing embraces AM and integrates sophisticated software tools to enhance productivity. If we combine that with the Lean Six Sigma concept, then we can begin addressing immediate concerns with AM and solve problems like supply chain resiliency.
Production Planning | Having access to a centralized Enterprise Resource Planning (ERP) software solution capable of organizing AM technologies and material capabilities across multiple facilities enables production specialists to quickly print parts and immediately service customer needs. Oftentimes referred to as on demand manufacturing, this process eliminates the need for warehousing and will completely transform the traditional supply chain that constantly faces logistical nightmares (tariffs, long lead times, emissions). 这为维修和备件供应商在当地生产航空部件创造了一个重要的机会, transportation and defense products that cannot afford equipment downtime.
Maximize Throughput | Data is key to improving workflows. Management Execution Systems (MES) are designed to connect, track and monitor complex systems to ensure operational efficiency and improve production output. Having an integrated software that seamlessly connects conventional manufacturing with AM enables engineering teams to quickly assess technology benefits and assign production requests using time, quality and cost metrics. With the right software, engineers can identify AM ready parts, develop cost assessments and provide complete production transparency to management. It’s a strategic communication tool that relies on data and connectivity.
Maximizing the benefits of Lean Six Sigma takes an entire organization into consideration, encompassing hardware, software, processes and people. Is one more important than another when it comes to overall productivity? Not necessarily, 但我认为，一个复杂的软件365体育网官网不能被低估，它很可能成为过程改进的支柱. Reducing waste, eliminating downtime and enhancing throughput all relies on accurate data and production transparency. Ask yourself, how are you reducing waste in your process? What type of data do you use to justify decisions?
At 3D Control Systems, we are tackling this head on and invite you to learn more about our software solutions that are addressing the problems of today and proactively preparing for ones of tomorrow.
Welcome back to Bockman’s Bites … now, on to the second one…
I’ve decided now is not the time to discuss the benefits of additive manufacturing, but rather the challenges. 而增材制造已经发展了30年, it’s still a relatively young industry, and we are beginning to see new hardware, software and material providers pop up everyday. It’s certainly an exciting time for AM enthusiasts, but it’s cumbersome for many commercial and industrial manufacturers who wish to maximize the advantages of AM. It introduces a lot of waste (muda) into the workflow that traditional manufacturing has conquered. In my estimation, these are the biggest challenges that L6S-AM can tackle. I witnessed it many times when I was visiting customers in automotive.
Combining with Conventional Manufacturing | How can AM be complementary to existing processes? For starters, designing with AM is unique compared to subtractive manufacturing and requires a different engineering mindset. In addition, most production facilities are unwilling to completely change their processes without understanding the time, quality or cost benefits associated with AM. 这种知识和信心的缺乏导致采用犹豫不决. How is the industry addressing it today?
Contract Manufacturing or Service Bureaus |拥抱新技术和创新是许多机械车间和生产设施的精心考虑. The challenge is to find a complementary approach to manufacturing that seamlessly determines which technology is the most cost effective (or time sensitive) solution depending on the part or application. This is not easy considering the subtle design differences required to maximize each technology or material. For many machine shops and contract manufacturers, this connection may not exist which leads to poor utilization or worse, lack of technical understanding of the capabilities. How are manufacturers making it easier on themselves?
美国的机器商店通常是家族企业，随着业务的扩张，它们自然成长并采用了技术. They may have CNC, injection molding, tooling, sand casting, and additive manufacturing capabilities under one roof. A recent report suggests that 26% of major OEMs are already outsourcing parts to a contract manufacturer/service bureau and expect that number to increase year-over-year due to a variety of reasons. 机械工厂正在寻找一种方法来减少增材制造过程，这往往是超级手工和劳动密集的. Not to mention, 合同制造商没有一个软件365体育网官网，可以连接所有的技术，这导致了繁琐的生产, missed timelines or duplicated efforts. 预期的增长迫使许多机器工厂确定一个软件平台，使他们能够数字化地查看生产车间, assign projects, and proactively identify problems (failed builds, predictive maintenance, equipment downtime). Having an integrated software that aggregates data from these production processes will enable engineers to determine a cost/time analysis and get parts out the door faster and cheaper. The competition isn’t waiting, why should you?
Check back in next week to see how the L6S-AM is affecting the automotive and aviation industries.
Leveraging Equipment & Technical Expertise 当涉及到优化技术能力时，拥有多个原型或生产设施的公司往往会受到限制. This is common for major OEM’s in aerospace, automotive and defense sectors that do not have access to partner facilities located in the US or elsewhere. 365体育网官网开始看到更多的OEM创建AM卓越中心, but it remains challenging for the entire organization to leverage resources and plan accordingly. L6S-AM是一个重要的考虑因素，因为与糟糕的计划相关的瓶颈将导致浪费支出或更糟的情况. Additive manufacturing machinery, 像任何主要的资本设备支出一样，都有一个保质期, and downtime is unacceptable.
Automotive & Aviation | Automotive and aviation manufacturers are notorious for having multiple production and final assembly plants strategically located throughout the globe. The technology at each site varies depending on a variety of reasons (expertise, access, proximity, etc.)，但最突出的挑战是如何利用正确的技术, for the right application, that provides maximum value to the organization. Too often, 不同的设施不能很好地沟通，并且完全不知道哪些资源是可用的. There is no singular language or software platform that can seamlessly connect the departments and accurately monitor equipment or material inventory in real-time. Simply put, it’s a lack of resource utilization.
AM was originally destined to be a prototyping tool so OEMs never implemented lean practices that would enable the technology to be a true manufacturing alternative. While AM is revolutionary, many manufacturers are losing precision cycle time just waiting between queues.
Lufthansa Technik, a major supplier of maintenance, repair, 和检修(MRO)服务在2018年与Oerlikon AM合作，建立了一个AM中心，致力于推进技术. The ability to produce one-off spare parts will cut costs significantly and improve lead times. 其他制造商也采取了类似的策略，开始集中AM专业知识，同时继续分散硬件能力, enabling on demand and localized production. With countless SKU’s, design standards, and testing data, it becomes challenging to aggregate this information for actionable purposes. 拥有一个将数据和生产透明度结合起来的集成软件将最终导致更好的计划和更少的停机时间.
Check back in next week to see how L6S-AM is affecting the medical market.
Data Transparency | AM introduces so many new technologies, materials, post processing requirements, 定价模型和设计考虑因素变得令人眼花缭乱. Not to mention, the industrial infancy of AM is a key contributor to the lack of standards available within the marketplace. How can engineers, scientists, doctors, and researchers maximize additive manufacturing without a proper execution system in place that can track, aggregate and monitor so many valuable data inputs? Without data or worse, inaccurate data, management is completely blind and unable to make process improvements. The medical market, well-known for its strict standards, embraces additive manufacturing but is still learning how to optimize it. Can a L6S approach help streamline additive manufacturing processes and improve efficiency?
AM has been tremendously beneficial to the development of personalized patient healthcare options. Custom treatments, prosthetics, surgery solutions, implants and more are now possible with additive manufacturing. However, implementing AM into a hospital setting compounds the challenge that already exists, too much data. Combining large, digital patient data with AM is a nightmare for most doctors and physicians. It’s cumbersome, complicated and inefficient.
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